KR101067835B1 - Industrial wastwater discharge reuse device and method using tubular type micro-filter membrane and ro membrane - Google Patents

Abstract

The present invention relates to the reuse of wastewater effluent from a metal process, and more particularly, a tubular MF membrane (Tubular type micro filter membrane) is used in a wastewater treatment system consisting of a collection tank and a reaction tank to reuse wastewater effluent generated in the metal process. Installed to remove more than 0.1 micron particulate matter to reduce the membrane load of the rear end RO membrane system, pass the treated water through the RO membrane to remove ionic substances below the fractional molecular weight (MWCO) 3500 Da, and then transfer to industrial water It can be reused.
In addition, the present invention relates to an industrial wastewater effluent reuse device and a recycling method using a tubular MF membrane and a RO membrane, which selectively installs an ion exchange resin to remove residual ions.

Description

Industrial wastwater discharge reuse device and method using tubular type micro-filter membrane and RO membrane}

The present invention relates to the reuse of wastewater effluent from a metal process, and more particularly, a tubular MF membrane (Tubular type micro filter membrane) is used in a wastewater treatment system consisting of a collection tank and a reaction tank to reuse wastewater effluent generated in the metal process. Installed to remove more than 0.1 micron particulate matter to reduce the membrane load of the rear end RO membrane system, pass the treated water through the RO membrane to remove ionic substances below the fractional molecular weight (MWCO) 3500 Da, and then transfer to industrial water It can be reused.

In addition, the present invention relates to an industrial wastewater effluent reuse device and a recycling method using a tubular MF membrane and a RO membrane, which selectively installs an ion exchange resin to remove residual ions.

Metallurgical process wastewater is a surface treatment method in which the oxide film itself formed by intentionally oxidizing and corroding a metal surface serves to protect the product from external influences and also allows coloring on the porous surface.

The metal surface treatment industry uses a large amount of toxic substances and chemicals, and the generated wastewater contains various metal salts such as heavy metal ions, harmful substances, nitrogen and phosphorus. In the treatment of the metal surface treatment industrial wastewater, the wastewater treatment method has been limited to the removal of heavy metals and harmful substances.In recent years, as environmental pollution has become a social problem, it is urgently required to develop a treatment method suitable for the metal surface treatment industry wastewater. have.

Conventionally, a wastewater treatment system using a collection tank, a neutralization tank, a flocculation tank, a sedimentation tank, a discharge tank, a multi media filter, an activated carbon filter, a membrane, a chemical supply system, etc., for recycling the metal process wastewater generated in the metal process is used. This is a complicated process and a lot of installation site, there is a problem that the recovery rate is low.

In order to solve the above problems, the present invention, after treating the metal process wastewater generated in the metal process primarily through the tubular MF membrane, by removing the ionic material of fractional molecular weight (MWCO) 3500 Da or less through the RO membrane It is an object of the present invention to provide an industrial wastewater effluent reusing apparatus and a recycling method using a tubular MF membrane and a RO membrane which are reused as industrial water and optionally install ion exchange resin to reuse treated water from which residual ions have been removed.

The present invention relates to a wastewater recycling apparatus for recycling metal wastewater generated in a metal process, comprising: a catchment tank for collecting the metal process wastewater, and a reaction tank for reacting by rapidly stirring by adding a flocculant to the wastewater transferred from the catchment tank. A tubular MF membrane that reduces the membrane load of the trailing RO membrane by removing particulate matter of 0.1 micron or more in the wastewater of It provides an industrial wastewater effluent recycling apparatus using a RO membrane, a tubular MF membrane consisting of a recycling tank for storing the treated water passed through the RO membrane for reuse.

In addition, the present invention provides an industrial wastewater effluent recycling apparatus using a tubular MF membrane and RO membrane, characterized in that the ion exchange resin can be configured to reuse the treated water stored in the reuse tank as pure water from which residual ions are removed.

The present invention is a wastewater recycling method for recycling the metal wastewater generated in the metal process, the present invention is to transfer the metal process wastewater to the water collection tank, and then by adding a flocculant to the waste water transferred from the water collection tank to react rapidly by stirring Passing the wastewater through the tubular MF membrane to remove particulate matter of 0.1 micron or more to reduce the membrane load of the rear end RO membrane, and after the first treatment step, the treated water passes through the RO membrane. By using the tubular MF membrane and RO membrane comprising a secondary treatment step of removing the ionic material below the fractional molecular weight (MWCO) 3500 Da, and storing the treated water that has passed through the RO membrane in the recycle tank Provide industrial wastewater effluent reuse.

In addition, after the secondary treatment step, recycling the industrial wastewater effluent using the tubular MF membrane and RO membrane, characterized in that it may further comprise a tertiary treatment step of producing pure water from which residual ions are removed using an ion exchange resin. Provide a method.

The present invention is the first treatment using a tubular MF membrane in order to treat the metal process wastewater generated in the metal process, and then passed through the RO membrane of the second stage to remove the ionic substances below the molecular weight fraction (MWCO) 3500 Da It is reused as industrial water through treatment, and the tubular MF membrane is installed in place of the sedimentation tank, the multi media filter, the UF membrane, the chemical supply system, etc., thereby simplifying the treatment process and reducing the installation site due to the process simplification. And, while maintaining the water quality satisfying the discharge criteria, there is an effect that the treatment efficiency increases accordingly.

In addition, there is an effect that can be reused as pure water by removing the residual ions contained in the treated water using an ion exchange resin selectively in the post-stage process.

1 is an overall configuration diagram of an industrial wastewater effluent recycling apparatus using the tubular MF membrane and RO membrane of the present invention.
2 is a flow chart of a method for recycling industrial wastewater effluent using the tubular MF membrane and RO membrane of the present invention.

Hereinafter, an industrial wastewater effluent reuse device and a recycling method using the tubular MF membrane and the RO membrane of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram of an industrial wastewater effluent recycling apparatus using the tubular MF membrane and the RO membrane of the present invention, Figure 2 is a flow chart of the industrial wastewater effluent recycling method using the tubular MF membrane and RO membrane of the present invention.

As shown in FIG. 1, in the present invention, the metal process wastewater generated in the metal process is introduced into the collection tank 12, and the introduced waste water is transferred to the reaction vessel 14 to react with rapid stirring by adding a flocculant.

After the precipitation reaction of the reactor 14, the wastewater is passed through the tubular MF membrane 16 to remove particulate matter of 0.1 micron or more, which reduces the membrane load of the RO membrane system in the rear stage.

The treated water passing through the tubular MF membrane 16 is transferred to the RO membrane 22 to remove ionic substances having a fractional molecular weight (MWCO) 3500 Da or less, and the sludge is a concentration tank 40, and the treated water is reused. 24).

The concentration tank 40 transfers the sludge from the RO membrane 22 to the compression filter 42, and then the dewatering cake is taken out, and the dewatering filtrate is transferred to the collection tank 12.

The treated water transferred to the reuse tank 24 is configured to be supplied to industrial water for reuse.

In addition, it is also possible to selectively supply the treated water of the recycling tank 24 using the ion exchange resin 32 to remove residual ions and supply them as necessary.

The ion exchange resin is to install a mixed bed type ion exchange resin to remove the residual ions contained in the treated water passing through the membrane, it is to remove the cation, anion by using a cation exchange resin and an anion exchange resin.

The mixed bed type ion exchange resin is filled with a cation exchange resin and an anion exchange resin in one column, and the treated water passes through the resin layer to remove ions in the treated water to supply high purity pure water.

2 is a flow chart of the present invention, the present invention is the first treatment step 10 for collecting and treating the metal process wastewater generated in the metal process, after passing through the RO membrane 22 after the primary treatment step (10) A secondary treatment step 20 for removing ionic substances having a fractional molecular weight (MWCO) 3500 Da or less, and optionally, a third treatment step 30 for removing residual ions using an ion exchange resin 32 is performed.

Waste water generated in the metal process is transferred to the sump. (S100)

The primary treatment step 10 is composed of a water collecting tank 12, a reaction tank 14, a tubular MF membrane 16 to primary treatment of the metal process wastewater (S200).

The water collecting tank 12 is configured to collect the metal process wastewater generated in the metal process, and the wastewater of the water collecting tank 12 is transferred to the reaction tank 14 to inject a flocculant to react rapidly and react to sludge.

The supernatant of the sludge wastewater sludged in the reactor 14 is transferred to the tubular MF membrane 16 at the rear stage.

The tubular MF membrane 16 is an M / F filter and is configured to reduce the membrane load of the RO membrane system in the post process by removing particulate matter of 0.1 micron or more.

In addition, the tubular MF membrane 16 is installed to replace the existing sedimentation tank, multi-media filter, UF membrane process, chemical supply system, etc., the installation site is reduced by the simplification of the process, and the efficiency is increased.

The treated water passing through the first treatment step 10 is subjected to a second treatment step 20 consisting of a RO membrane 22 and a reuse tank 24. (S300)

The secondary treatment step 20 is to remove the treated water passing through the tubular MF membrane 16 by passing through the RO membrane 22 to remove the ionic material of fractional molecular weight (MWCO) 3500 Da or less.

After passing through the RO membrane 22, the sludge is transferred to the concentration tank 40 and separated by the compression filter 42 into the dewatering liquid and the dewatering cake, the separated dewatering liquid is transferred to the collecting tank 12 for processing. The dewatering cake is a component to be taken out.

In addition, the RO membrane 22 is preferably subjected to the step of periodically removing fouling by a cleaning system (not shown).

In addition, the RO membrane 22 system and cleaning system are preferably controlled automatically by a PLC.

The treated water passing through the RO membrane 22 is transferred to the reuse tank 24 and supplied to the industrial water.

The treated water of the reuse tank 24 may be selectively configured to remove the remaining ions of the treated water using the ion exchange resin 32 and then reused as pure water. (S400)

The present invention is a wastewater recycling apparatus for recycling the wastewater from the metal process generated in the metal process, in the collecting tank 12 for collecting the metal process wastewater, a coagulant is added to the wastewater transferred from the collecting tank 12 and stirred rapidly The tubular MF membrane 16 and the tubular MF membrane 16 which reduce the membrane load of the rear end RO membrane 22 by removing particulate matter of 0.1 micron or more from the reaction tank 14 and the wastewater of the reactor 14 are reacted. A tubular structure consisting of a RO membrane 22 for removing ionic substances having a fractional molecular weight (MWCO) 3500 Da or less in the treated water passed through, and a recycle water tank 24 for storing the treated water passed through the RO membrane 22 for reuse. An industrial wastewater effluent recycler using MF membranes and RO membranes is provided.

In addition, the industrial wastewater effluent using the tubular MF membrane and RO membrane, characterized in that the ion exchange resin 32 for reusing the treated water stored in the reuse tank 24 as pure water from which residual ions are removed. Provide a reuse device.

In the present invention, in the wastewater recycling method for recycling the metal wastewater generated in the metal process, the metal process wastewater is transferred to the water collecting tank 12, and then a coagulant is added to the waste water transferred from the water collecting tank 12 to rapidly stir. The wastewater is passed through the tubular MF membrane 16 to remove particulate matter of 0.1 micron or more, thereby reducing the membrane load of the rear-end RO membrane 22. After the second treatment step 10, the treated water is passed through the RO membrane to remove ionic substances having a fractional molecular weight (MWCO) 3500 Da or less, and reused water tank 24 to reuse the treated water that has passed through the RO membrane 22. It provides a method for recycling industrial wastewater effluent using a tubular MF membrane and RO membrane characterized in that the secondary treatment step 20 to store in.

In addition, after the secondary treatment step 20, the tubular MF membrane, characterized in that it may further comprise a tertiary treatment step 30 for producing pure water from which residual ions are removed using the ion exchange resin (32). And it provides an industrial wastewater effluent reuse method using the RO membrane.

As described above, the present invention is the first treatment using a tubular MF membrane in order to treat the metal process wastewater generated in the metal process, and then passed through the RO membrane of the rear stage to the ion of fraction molecular weight (MWCO) 3500 Da or less It is reused as industrial water through the secondary treatment to remove the material. The tubular MF membrane is installed in place of the sedimentation tank, the multi media filter, the UF membrane, the chemical supply system, and the treatment process is simplified. There is an effect of reducing the site, while maintaining the water quality to meet the discharge criteria, there is an effect of increasing the treatment efficiency accordingly.

In addition, there is an effect that can be reused as pure water by removing the residual ions contained in the treated water using an ion exchange resin selectively in the post-stage process.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be.

It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

10: first treatment step
12: sump tank
14: reactor
16: tubular MF membrane
20: secondary processing step
22: RO membrane
24: reuse tank
30: 3rd process step
32: ion exchange resin
40: thickening tank
42: compression filter

Claims (4)

In the wastewater recycling apparatus for recycling the metal wastewater generated in the metal process,
A water collecting tank 12 for collecting the metal process wastewater;
A reaction tank 14 for reacting by rapidly stirring by adding a flocculant to the wastewater transferred from the sump tank 12;
Tubular MF membrane (16) to reduce the membrane load of the rear RO membrane 22 by removing particulate matter of 0.1 micron or more in the waste water of the reactor (14);
A RO membrane (22) for removing ionic substances having a fractional molecular weight (MWCO) 3500 Da or less in the treated water passing through the tubular MF membrane 16;
Reuse tank (24) for storing for reuse the treated water passed through the RO membrane (22); tubular MF membrane and RO wastewater effluent recycling apparatus using the RO membrane. The method of claim 1,
Industrial wastewater effluent reuse using tubular MF membrane and RO membrane, characterized in that the ion exchange resin (32) for recycling the treated water stored in the reuse tank 24 as pure water from which residual ions have been removed. Device. In the wastewater reuse method for recycling the metal wastewater generated in the metal process,
After the metal process wastewater is transferred to the collecting tank 12, a flocculant is added to the wastewater transferred from the collecting tank 12 and rapidly stirred to react. The wastewater is passed through the tubular MF membrane 16 to have a particle size of 0.1 micron or more. A primary treatment step 10 configured to remove the material to reduce the membrane load of the rear end RO membrane 22;
After the first treatment step 10, the treated water is passed through the RO membrane to remove ionic substances having a fractional molecular weight (MWCO) 3500 Da or less, and reused to reuse the treated water passed through the RO membrane 22 ( 24) a secondary treatment step (20) for storing; industrial wastewater effluent reuse method using a tubular MF membrane and RO membrane, characterized in that consisting of. The method of claim 3,
After the secondary treatment step 20, using the ion exchange resin 32, the tertiary treatment step 30 for producing the pure water from which the residual ions have been removed; tubular MF membrane, characterized in that it may further comprise a Industrial wastewater effluent reuse method using RO membrane.

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